余光辉
- 教师拼音名称:Yu Guanghui
- 职务:中心副主任
- 性别:男
- 职称:教授
- 所属院系:地球系统科学学院
- · Sun, F.-S., C. M, G.-H. Yu(余光辉)*, Y. Kuzyakov, Y.-C. Lang, P.-Q. Fu, L.-J. Guo, H. H. Teng, C.-Q. Liu, 2023, Organic carbon preservation in wetlands: Iron oxide protection vs. thermodynamic limitation, Water Research, 241: 120133.
- · Dong*, H., Q. Zeng, Y. Sheng, C. Chen, G. Yu(余光辉), Andreas Kappler, 2023, Coupled iron redox cycling and organic matter transformation across redox interfaces, Nature Reviews Earth & Environment, 4, 9: 659–673.
- · Chang, L., G.-H. Yu(余光辉)*, C.-Q. Liu, 2023, Interfacial processes and mechanisms of synergistic degradation of dichlorobiphenyl by white rot fungi and magnetite nanoparticles, SCIENCE CHINA Earth Sciences, 66(9): 2057–2065.
- · 常乐, 余光辉*, 刘丛强, 2023, 白腐真菌-磁铁矿协同降解二氯联苯的界面过程与机制, 中国科学: 地球科学, 53(9): 2085–2093.
- · Chi, Z.L., G.H. Yu(余光辉)*, H.H. Teng, H.G. Liu, J. Wang, C.Q. Liu, Q.R. Shen, G.M. Gadd, 2022, Molecular trade-offs between lattice oxygen and oxygen vacancy drive organic pollutant degradation in fungal biomineralized exoskeletons, Environmental Science & Technology, 56(12): 8132-8141.
- · Chi, Z.L., G.H. Yu(余光辉)*, A. Kappler, C.Q. Liu, G.M. Gadd, 2022, Fungal-mineral interactions modulating intrinsic peroxidase-like activity of iron nanoparticles: Implications for the biogeochemical cycles of nutrient elements and attenuation of contaminants, Environmental Science & Technology, 56(1): 672-680.
- · Wan, D., F.-F. Liu, J.-B. Chen, A. Kappler, Y. Kuzyakov, C.-Q. Liu, G.-H. Yu(余光辉)*, 2022, Microbial community mediates hydroxyl radical production in soil slurries by iron redox transformation, Water Research, 220: 118689.
- · Wen, T.#, G.H. Yu(余光辉)#, W.D. Hong, J. Yuan*, G.Q. Niu, P.H. Xie, F.S. Sun, L.D. Guo, Y. Kuzyakov, Q.R. Shen, 2022, Root exudate chemistry affects carbon mobilization in a Ultisol soil via microbial community reassembly, Fundamental Research, 2(5): 697-707.
- · Yu, G.H.(余光辉)*, Y. Kuzyakov, Y. Luo, B. Goodman, A. Kappler, F.F. Liu, F.S. Sun*, 2021, Molybdenum bioavailability and asymbiotic nitrogen fixation in soil are raised by iron (oxyhydr)oxide mediated free radical production, Environmental Science & Technology, 55(21): 14979–14989.
- · Yu, G.H.(余光辉)*, Y. Kuzyakov*, 2021, Fenton chemistry and reactive oxygen species in soil: Abiotic mechanisms of biotic processes, controls and consequences for carbon and nutrient cycling, Earth-Science Reviews, 214: 103525.